Reinterpretation of metamorphic age of the Hengshan Complex, North China Craton (original) (raw)

References

1. Wu J S, Geng Y S, Shen Q H, et al. Archaean Geology Characteristics and Tectonic Evolution of China-Korea Paleo-continent (in Chinese). Beijing: Geological Publishing House, 1998. 1–212
   Google Scholar
2. Zhai M G, Bian A G, Zhao T P. The amalgamation of the supercontinent of North China Craton at the end of Neo-Archaean and its breakup during late Palaeoproterozoic and Meso-Proterozoic. Sci China Ser D, 2000, 43: 219–232
   Article Google Scholar
3. Zhai M G, Guo J H, Liu W J. Neoarchean to Paleoproterozoic continental evolution and tectonic history of the North China Craton: A review. J Asian Earth Sci, 2005, 24: 547–561
   Article Google Scholar
4. Zhai M G, Santosh M. The early Precambrian odyssey of the North China Craton: A synoptic overview. Gondwana Res, 2011, 20: 6–25
   Article Google Scholar
5. Zhai M G. Cratonization and the Ancient North China Continent: A summary and review. Sci China Earth Sci, 2011, 8: 1110–1120
   Article Google Scholar
6. Zhai M G, Liu W J. Palaeoproterozoic tectonic history of the North China craton: A review. Precambrian Res, 2003, 122: 183–199
   Article Google Scholar
7. Zhao G C, Wilde S A, Cawood P A, et al. Thermal evolution of Archean basement rocks from the eastern part of the North China carton and its bearing on tectonic setting. Int Geol Rev, 1998, 40: 706–721
   Article Google Scholar
8. Zhao G C, Cawood P A, Lu L Z. Petrology and P-T history of the Wutai amphibolites: implications for tectonic evolution of the Wutai Complex, China. Precambrian Res, 1999, 93: 181–199
   Article Google Scholar
9. Zhao G C, Wilde S A, Cawood P A, et al. Tectonothermal history of the basement rocks in the western zone of the North China Craton and its tectonic implications. Tectonophysics, 1999, 310: 37–53
   Article Google Scholar
10. Zhao G C, Cawood P A, Wilde S A, et al. Metamorphism of basement rocks in the Central Zone of the North China Craton: Implications for Paleoproterozoic tectonic evolution. Precambrian Res, 2000, 103: 55–88
    Article Google Scholar
11. Zhao G C, Sun M, Wilde S A, et al. Late Archean to Paleoproterozoic evolution of the North China Craton: Key issues revisited. Precambrian Res, 2005, 136: 177–202
    Article Google Scholar
12. Zhao G C, Wilde S A, Sun M, et al. SHRIMP U-Pb zircon ages of granitoid rocks in the Lüliang Complex: Implications for the accretion and evolution of the Trans-North China Orogen. Precambrian Res, 2008, 160: 213–226
    Article Google Scholar
13. Zhao G C, Wilde S A, Guo J H, et al. Single zircon grains record two Paleoproterozoic collisional events in the North China Craton. Precambrian Res, 2010, 177: 266–276
    Article Google Scholar
14. Kröner A, Wilde S A, Li J H, et al. Age and evolution of a late Archean to Paleoproterozoic upper to lower crustal section in the Wutaishan/Hengshan/Fuping terrain of northern China. J Asian Earth Sci, 2005, 24: 577–595
    Article Google Scholar
15. Kröner A, Wilde S A, O’Brien P J, et al. Field relationships, geochemistry, zircon ages and evolution of a late Archaean to Palaeoproterozoic lower crustal section in the Hengshan Terrain of northern China. Acta Geol Sin-Engl, 2005, 79: 605–632
    Google Scholar
16. Wilde S A, Cawood P A, Wang K Y, et al. Granitoid evolution in the Late Archean Wutai Complex, North China Craton. J Asian Earth Sci, 2005, 24: 597–613
    Article Google Scholar
17. Liu S W, Pan Y M, Xie Q L, et al. Archean geodynamics in the Central Zone, North China Craton: Constraints from geochemistry of two contrasting series of granitoids in the Fuping and Wutai complexes. Precambrian Res, 2004, 130: 229–249
    Article Google Scholar
18. Liu S W, Zhao G C, Wilde S A, et al. Th-U-Pb monazite geochronology of the Lüliang and Wutai Complexes: Constraints on the tectonothermal evolution of the Trans-North China Orogen. Precambrian Res, 2006, 148: 205–224
    Article Google Scholar
19. Liu S W, Zhang J, Li Q G, et al. Geochemistry and U-Pb zircon ages of metamorphic volcanic rocks of the Paleoproterozoic Lüliang Complex and constraints on the evolution of the Trans-North China Orogen, North China Craton. Precambrian Res, 2012, 222–223: 173–190
    Article Google Scholar
20. Wan Y S, Song B, Liu D Y, et al. SHRIMP U-Pb zircon geochronology of Palaeoproterozoic metasedimentary rocks in the North China Craton: Evidence for a major Late Palaeoproterozoic tectonothermal event. Precambrian Res, 2006, 149: 249–271
    Article Google Scholar
21. Wan Y S, Wilde S A, Liu D Y, et al. Further evidence for 1.85 Ga metamorphism in the Central Zone of the North China Craton: SHRIMP U-Pb dating of zircon from metamorphic rocks in the Lushan area, Henan Province. Gondwana Res, 2006, 9: 189–197
    Article Google Scholar
22. Guo J H, Sun M, Chen F K, et al. Sm-Nd and SHRIMP U-Pb zircon geochronology of high-pressure granulites in the Sanggan area, North China Craton: Timing of Paleoproterozoic continental collision. J Metamorph Geol, 2005, 24: 629–642
    Google Scholar
23. Kröner A, Wilde S A, Zhao G C, et al. Zircon geochronology and metamorphic evolution of mafic dykes in the Hengshan Complex of northern China: Evidence for late Palaeoproterozoic extension and subsequent high-pressure metamorphism in the North China Craton. Precambrian Res, 2006, 146: 45–67
    Article Google Scholar
24. Zhao G C, Wilde S A, Cawood P A, et al. SHRIMP U-Pb zircon ages of the Fuping Complex: Implications for late Archean to Paleoproterozoic accretion and assembly of the North China Craton. Am J Sci, 2002, 302: 191–226
    Article Google Scholar
25. Zhao G C, Wilde S A, Sun M, et al. SHRIMP U-Pb zircon geochronology of the Huai’an Complex: Constraints on Late Archean to Paleoproterozoic magmatic and metamorphic events in the Trans-North China Orogen. Am J Sci, 2008, 308: 270–303
    Article Google Scholar
26. Zhao R F, Guo J H, Peng P, et al. 2.1Ga crustal remelting event in Hengshan Complex: Evidence from zircon U-Pb dating and Hf-Nd isotopic study on potassic granites (in Chinese). Acta Petrol Sin, 2011, 27: 1607–1623
    Google Scholar
27. Wang K Y, Hao J, Wilde S A, et al. Reconsideration of some key geological problems of late Archean-early Proterozoic in the Wutaishan-Hengshan area: Constraints from SHRIMP U-Pb zircon data (in Chinese). Sci Geol Sin, 2000, 35: 175–184
    Google Scholar
28. Pang E C, Xu Y J, Shi G H, et al. Geochemistry and chronology of Hongtang ore-bearing rocks in the Daixian rutile deposit, Shanxi Province (in Chinese). Acta Petrologica Et Mineralogica, 2010, 29: 497–506
    Google Scholar
29. Peng P, Guo J, Zhai M, et al. Genesis of the Hengling magmatic belt in the North China Craton: Implications for Paleoproterozoic tectonics. Lithos, 2012, 148: 27–44
    Article Google Scholar
30. Sláma J, Kösler J, Condon D J, et al. Plešovice zircon—A new natural reference material for U-Pb and Hf isotopic microanalysis. Chem Geol, 2008, 249: 1–35
    Article Google Scholar
31. Wiedenbeck M, Allé P, Corfu F, et al. Three Natural Zircon Standards for U-Th-Pb, Lu-Hf, Trace Element and REE Analyses. Geostand Newsl, 1995, 19: 1–23
    Article Google Scholar
32. Andersen T. Correction of common lead in U-Pb analyses that do not report 204Pb. Chem Geol, 2002, 192: 59–79
    Article Google Scholar
33. Ludwig K R. Isoplot/Ex Version 3.00: A geological toolkit for Microsoft Excel. Berkeley Geochronology Center Spec Publ 4, 2003: 1–70
    Google Scholar
34. Boynton W V. Cosmochemistry of the rare earth elements: Meteoric studies. In: Henderson P, ed. Rare Earth Element Geochemistry. Amsterdam: Elsevier, 1984. 63–114
    Chapter Google Scholar
35. Powell R, Holland T, Worley B. Calculating phase diagrams involving solid solutions via non-linear equations, with examples using THERMOCALC. J Metamorph Geol, 1998, 16: 577–588
    Article Google Scholar
36. Kelsey D E, Powell R. Progress in linking accessory mineral growth and breakdown to major mineral evolution in metamorphic rocks: A thermodynamic approach in the Na2O-CaO-K2O-FeO-MgO-Al2O3-SiO2-H2O-TiO2 -ZrO2 system. J Metamorph Geol, 2011, 29: 151–166
    Article Google Scholar
37. Diener J F A, Powell R, White R W, et al. A new thermodynamic model for clino- and orthoamphiboles in the system Na2O-CaO-FeO-MgO-Al2O3-SiO2-H2O-O. J Metamorph Geol, 2007, 25: 631–656
    Article Google Scholar
38. Green E, Holland T, Powell R. An order-disorder model for omphacitic pyroxenes in the system jadeite-diopside-hedenbergite-acmite, with applications to eclogitic rocks. Am Mineral, 2007, 92: 1181–1189
    Article Google Scholar
39. Bea F, Montero P, Ortega M. A LA-ICP-MS evaluation of Zr reservoirs in common crustal rocks: Implications for Zr and Hf geochemistry, and zircon-forming processes. Can Mineral, 2006, 44: 693–714
    Article Google Scholar
40. Li J H, Qian X L. The Early Precambrian Crustal Evolution of Hengshan Metamorphic Terrain, North China Craton (in Chinese). Taiyuan: Shanxi Science and Technology Press, 1994. 1–116
    Google Scholar
41. Zhao G, Cawood P A, Wilde S A, et al. High-Pressure Granulites (Retrograded Eclogites) from the Hengshan Complex, North China Craton: Petrology and Tectonic Implications. J Petrol, 2001, 42: 1141–1170
    Article Google Scholar
42. Nehring F, Foley S F, Holtta P. Trace element partitioning in the granulite facies. Contrib Mineral Petr, 2010, 159: 493–519
    Article Google Scholar
43. Spandler C, Hermann J, Arculus R, et al. Redistribution of trace elements during prograde metamorphism from lawsonite blueschist to eclogite facies; implications for deep subduction-zone processes. Contrib Mineral Petr, 2003, 146: 205–222
    Article Google Scholar
44. Hanson G N. The application of trace elements to the petrogenesis of igneous rocks of granitic composition. Earth Planet Sc Lett, 1978, 38: 26–43
    Article Google Scholar
45. Rubatto D. Zircon trace element geochemistry: Partitioning with garnet and the link between U-Pb ages and metamorphism. Chem Geol, 2002, 184: 123–138
    Article Google Scholar
46. Wu Y B, Zheng Y F. Genesis of zircon and its constraints on interpretation of U-Pb age. Chin Sci Bull, 2004, 49: 1554–1569
    Google Scholar
47. Liu S W, Shu G M, Pan Y M, et al. Electron-Microprobe Dating of Monazite and Metamorphic Age of Wutai Group, Wutai Mountains (in Chinese). J China Univ Geosci, 2004, 10: 356–363
    Google Scholar
48. Trap P, Faure M, Lin W, et al. The Lüliang Massif: A key area for the understanding of the Palaeoproterozoic Trans-North China Belt, North China Craton. In: Reddy S M, Mazumder R, Evans D A D, et al., eds. Palaeoproterozoic Supercontinents and Global Evolution. Geol Soc London Spec Publ, 2009. 99–125
    Google Scholar
49. Trap P, Faure M, Lin W, et al. Paleoproterozoic tectonic evolution of the Trans-North China Orogen: Toward a comprehensive model. Precambrian Res, 2012, 222–223: 191–211
    Article Google Scholar
50. England P C, Thompson A B. Pressure-Temperature-Time Paths of Regional Metamorphism I. Heat Transfer during the Evolution of Regions of Thickened Continental Crust. J Petrol, 1984, 25: 894–928
    Article Google Scholar
51. Jamieson R A, Beaumont C. Coeval thrusting and extension during lower crustal ductile flow—Implications for exhumation of high-grade metamorphic rocks. J Metamorph Geol, 2011, 29: 33–51
    Article Google Scholar

Download references